Integration of Advanced Experiments, Computation and Data for Innovation in Freeze Casting and Advanced Porous Structures - ice-Link

Period:
48 months, starting with September 2023
Coordinator:
LIVERPOOL JOHN MOORES UNIVERSITY, United Kingdom
Title of project: Integration of Advanced Experiments, Computation and Data for Innovation in Freeze Casting and Advanced Porous Structures
Acronym of project: ice-Link
Duration (months): 48
Call: HORIZON-MSCA-2022-SE-01 (MSCA Staff Exchanges 2022)
Topic: HORIZON-MSCA-2022-SE-01-01
Type of Action: HORIZON-TMA-MSCA-SE
Proposal number: 101130406
Type of Model Grant Agreement: HORIZON Unit Grant

List of participating organisations:
Coordinator: LIVERPOOL JOHN MOORES UNIVERSITY, United Kingdom, http://www.ljmu.ac.uk
Parteners:
THE UNIVERSITY OF LIVERPOOL, United Kingdom, www.ljmu.ac.uk
CONSIGLIO NAZIONALE DELLE RICERCHE, Italy, www.cnr.it
CHERKA TROVA, Bulgaria, www.ctrova.eu
UNIVERSITY OF PHAYAO, Thailand, www.up.ac.th
UNIVERSITY OF MALAYA, Malaysia, http://www.um.edu.my/
ACCENT PRO 2000 s.r.l., Romania, www.accent.ro

The project aims to collaboratively research on ice-templating of advanced porous materials through modern data system/sharing, experiments and numerical/physical modelling. The project will establish systematic data of ice-templated porous materials and predictive modelling supported by machining learning for establishing detailed structures-properties relationship. The project will investigate the cooling process through experimental, Phased field modelling and molecular simulation for ice/emulsion structure growth/evolution process. The data and advanced modelling approach established will be used to develop porous systems with tuneable porosities for advanced applications. One key area is to control porosity and distribution to achieve uniform porosities or
gradient/hierarchical structures in functional ceramics (carbon, piezoceramics, BCZY-GDC ceramics for fuel cells, membrane for hydrogen separation, etc.); Another area is to develop tuneable pore size/shape and porosity in monoliths, beads, and fibres of plastics (e.g. for PLA scaffolding, etc.). The resulted advanced data system, intelligent modelling program, new materials and improved scientific understanding will contribute to the research and innovation capacity in Europe and the world on ice-templating, porous materials and associated systems with a long term economic and social impact. The network will serve as a pivoting platform for future data sharing, research and innovation, speeding up material or product development cycle through interdisciplinary research.
It will enhance the R&I capacity of academic and industrial partners, sustain the effort in collectively challenging issue in this most active research area and jointly developing major break-through technologies. It will also equip researchers with modern research facilities, innovation skills and critical thinking capacity through integrated data system, facilities, dynamic collaboration with everlasting impact.